KR20020057185A - Method for controlling frame error rate of reverse-link in mobile communication system - Google Patents

Abstract

PURPOSE: A method for controlling the frame error rate of a reverse channel in a mobile telecommunication system is provided to regularly maintain the frame error rate in even case that only one power control channel exists, by applying forward power control algorithm, thereby preventing calling quality from being lowered and reducing the possibility of call drop. CONSTITUTION: If a closed loop power control starts, a reference channel to transmit information to a forward power control channel is decided. If the channel to transmit is the reference channel, a reference channel receiving level is measured. It is determined whether a reference receiving level is larger than the reference channel receiving level. If receiving energy of the reference channel is lower than the reference receiving energy, 1 is transmitted to the forward power control channel. If receiving energy of the reference channel is more than the reference receiving energy, 0 is transmitted to the forward power control channel. If the channel to transmit is channel 1-N, the receiving level of the channel 1-N is measured.

Description

Method for controlling frame error rate of reverse channel in mobile communication system

The present invention relates to a mobile communication system, and more particularly, to a method for controlling a frame error rate of a reverse channel in a mobile communication system to efficiently control a frame error rate of a reverse channel to prevent call truncation and improve call quality. .

In general, in designing a CDMA mobile communication system, it is highly desirable to maximize the number of users that can simultaneously talk on a given bandwidth. The capacity of the system is maximized if the transmit power of each mobile station is controlled to reach the base station with a minimum signal to interference ratio.

If the transmission power of the mobile station received at the base station is too low, the bit error rate is too high to expect a good quality call. In addition, if the received power at the base station is too high, the call quality of the mobile station is improved, but interference with other mobile stations using the same channel is increased.

Each mobile station thus estimates the path loss from the base station to the mobile station. That is, the base station of the CDMA system transmits a pilot signal of the same frequency, and the mobile station measures the sum of the strength of the pilot signal and the strength of the transmission signals from all base stations received at the mobile station. As a result, if the signal strength received at the mobile station is high, the mobile station adjusts the transmit power low. This high reception strength of the mobile station means that the mobile station is located close to the base station or the path loss is extremely small, so that the mobile station can provide the normative receive power to the base station even with relatively low mobile station transmit power.

Such reverse power control includes open loop power control, closed loop power control, and outer loop power control.

First, the transmission power of the reverse pilot is determined after calculating the distance by measuring the mobile station reception power, and the transmission power of each channel is determined by applying the corresponding gain value based on the determined pilot transmission power. The gain value of each channel uses a value defined by a base station according to a certain frame length, transmission rate, and coding method (open loop power control).

At this time, if the wireless environment of the forward link and the reverse link is the same, the exact power transmission power of the mobile station can be determined by distance calculation. The intensity can be increased or decreased. To this end, the base station measures the base station reception power and requires the base station to change the transmission power of the mobile station when it is out of the reference reception power threshold. In this case, the power control is called closed loop power control, and a detailed algorithm is as follows.

1 is a flowchart illustrating a reverse closed loop power control method in a mobile communication system according to the related art.

As shown in FIG. 1, closed loop power control is started to measure the reference channel reception level.

Subsequently, it is determined whether the reference reception level is greater than the reference channel reception level. If the reference reception level is large, the power control bit (PCB) is set to '1'.

If the reference reception level is less than the reference channel reception level, the power control bit is set to '0'.

The reverse closed loop power control method in the mobile communication system will be described again as follows.

First, the base station requests an increase in the mobile station transmit power if the base station's received power is lower than the reference receive power threshold, and requires a decrease in the mobile station transmit power if it is high.

The mobile station then increases the transmit power by a defined step upon receiving the mobile station transmit power increase request from the base station, and decreases the transmit power by a step when receiving the decrease request.

Here, closed loop power control is performed in the channel element of the base station at a period of 1.25 ms.

Accordingly, although the reception power of the base station can be kept constant through the closed loop power control, the reference reception threshold value of the base station according to the state of the frame in the transcoder selector bank (TSB) of the control station in order to maintain a constant error rate of the frame. Will change. At this time, the power control is referred to as outer loop power control and the algorithm is as follows.

2 is a flowchart illustrating a reverse outer loop power control method in a mobile communication system according to the related art.

As shown in FIG. 2, the outer loop power control is started to measure the frame reception level of the reference channel.

Subsequently, it is determined whether the received frame is in good condition, and when the frame state is good, the reference reception level decreases.

If the frame condition is not good, the reference reception level is increased.

Referring back to the reverse outer loop power control method in the mobile communication system as follows.

First, the control station decreases the reference threshold by a constant decrease if the state of the received frame is good, and increases the reference threshold by a constant increase if the state of the received frame is bad.

The base station performs closed loop power control with a reference threshold changed by the base station controller. At this time, the reference threshold increase increases the mobile station transmit power, and the reference threshold decrease decreases the mobile station transmit power.

Here, the outer loop power control is performed every 20 ms in the TSB of the control station.

Therefore, the transmit power of the mobile station is properly adjusted to maintain the base station's received power through the closed loop power control and the outer loop power control of the base station and to maintain a frame error rate of 1%, which is a performance condition of the system.

The mobile communication system performs a service using multiple channels between the base station and the terminal. By using multiple channels, the frame error rate of each channel is required differently. In order to satisfy this, the power gain value is defined according to the characteristics of the channel (frame length, transmission rate, coding method) and used in the mobile station.

In this case, the power gain values defined by the base station according to the frame length, transmission rate, and coding method do not represent the same frame error rate in all environments. If the power gain value defined according to the wireless channel environment is used, the frame error rate may be lower or vice versa.

In this case, the above problem may be solved by transmitting power control information to the forward power control subchannel to perform the outer loop and closed loop power control to satisfy the changed frame error rate.

However, in such a mobile communication system, the forward power control subchannel can use only one of a fundamental or dedicated control channel, and since the reverse communication channel is used, power control can be performed for all channels. It is not there. Power control can be performed using only one channel.

That is, in the mobile communication system, the closed loop power control can compensate for the open loop power control, but the outer loop result can be applied to only one channel.

For this reason, power cannot be controlled when the frame error rate of the channel that cannot apply the result of the outer loop to the forward power control subchannel increases or decreases the target value.

In addition, when the frame error rate increases the target value, call truncation may occur, and when the frame error rate decreases the target value, power waste may occur.

Therefore, the present invention has been made to solve the above-mentioned problems according to the prior art, the purpose of the present invention, in the case of determining the information to be transmitted to the forward power control sub-channel during the reverse power control to transmit using only one channel result Unlike the conventional method, when the frame error rate of a channel increases over a certain threshold, a mobile communication system provides a method of controlling a frame error rate of a reverse channel in order to prevent call truncation and improve call quality by changing a reference channel. .

A feature of the frame error rate control method of the reverse channel in the mobile communication system according to the present invention for achieving the above object is the step of determining a reference channel for transmitting information to the forward power control sub-channel when the closed loop power control is started, Measuring a reference channel reception level if the channel to be transmitted is a reference channel; determining whether the reference reception level is greater than the reference channel reception level; and if the received energy of the reference channel is lower than the reference reception energy, the forward direction is determined. Transmitting '1' to the power control subchannel, and transmitting '0' to the forward power control subchannel if the received energy of the reference channel is greater than or equal to the reference received energy; and if the channel to be transmitted is channels 1 to N, And measuring the N reception level.

1 is a flowchart illustrating a reverse closed loop power control method in a mobile communication system according to the prior art;

2 is a flowchart illustrating a reverse outer loop power control method in a mobile communication system according to the prior art;

3 is a flowchart of a first embodiment showing a method for controlling a frame error rate of a reverse channel in a mobile communication system according to the present invention;

4 is a flowchart for determining a reference channel applied to the present invention.

5 is a flowchart of a second embodiment showing a method for controlling a frame error rate of a reverse channel in a mobile communication system according to the present invention.

Hereinafter, a preferred embodiment of a method for controlling a frame error rate of a reverse channel in a mobile communication system according to the present invention will be described with reference to the accompanying drawings.

3 is a flowchart of a first embodiment showing a method for controlling a frame error rate of a reverse channel in a mobile communication system according to the present invention.

As shown in FIG. 3, first, when a call is started, that is, when closed loop power control is started, a reference channel for transmitting information to the forward power control subchannel is determined.

If the channel to be transmitted is the reference channel, the reference channel reception level is measured.

Here, the reference channel reception level change = reference channel reception level-the reference reception level of the reference channel.

In addition, the forward power control subchannel information is determined by using the determined reference channel.

In addition, it is determined whether the reference reception level is greater than the reference channel reception level. If the reference reception level is large, the power control bit (PCB) is set to '1'. That is, when the received energy of the reference channel is lower than the reference received energy, '1' is transmitted to the forward power control subchannel.

If the reference reception level is less than the reference channel reception level, the power control bit is set to '0'. That is, when the received energy of the reference channel is greater than or equal to the reference received energy, '0' is transmitted to the forward power control subchannel.

Meanwhile, if the channel to be transmitted is channel 1, the channel 1 reception level is measured.

Here, the channel 1 reception level change = channel 1 reception level-the reference reception level of channel 1.

If the channel to be transmitted is channel N, the channel N reception level is measured.

Here, the channel N reception level change = the channel N reception level-the reference reception level of the channel N.

Accordingly, the remaining channels (channels 1 to N) except for the reference channel operate in the same manner as above, but do not transmit information to the forward power control subchannel. In addition, it does not transmit information but continues to check how much difference between the reference received energy and the actual received energy is determined in the outer loop result.

The same check is performed on the reference channel.

4 is a flowchart for determining a reference channel applied to the present invention.

As shown in FIG. 4, first, when a call is started, a reference channel for transmitting information is determined.

If the determined channel is the reference channel, the reception level change rate of the reference channel is received.

Meanwhile, if the determined channel is channel 1, the reception level change rate of channel 1 is received.

Subsequently, the difference between the reference channel = the reception level change rate of the reference channel-the reception level change rate of the channel 1 is obtained, and the difference between the reference channel and the reference channel is determined.

As a result of the determination, if the difference value with the reference channel is larger than the threshold value, the reference channel is set to channel 1, and if the difference value with the reference channel is smaller than the threshold value, the reference channel is not changed.

If the determined channel is channel N, the reception level change rate of channel N is received.

Subsequently, the difference between the reference channel = the reception level change rate of the reference channel-the reception level change rate of the channel N is obtained, and the difference between the reference channel and the reference channel is determined.

As a result of the determination, if the difference value with the reference channel is larger than the threshold value, the reference channel is set to channel 1, and if the difference value with the reference channel is smaller than the threshold value, the reference channel is not changed.

Therefore, when the difference in change of the reference channel and the difference in change of any channel exceeds a certain threshold, the reference channel is changed.

In other words, the reference reception energy is satisfied by setting a channel whose change difference exceeds a predetermined threshold as a reference channel and transmitting information to the forward power control subchannel.

After that, if the change difference of any channel exceeds a certain threshold, the reference channel is changed to satisfy the frame error rate of the mobile station and all communication channels in use.

5 is a flowchart of a second embodiment showing a method of controlling a frame error rate of a reverse channel in a mobile communication system according to the present invention.

As shown in FIG. 5, when outer loop power control is started, a reference channel frame is received.

Then, it is determined whether the state of the received reference channel frame is good.

As a result of the determination, if the frame is good, the reference reception level of the reference channel is decreased. If the frame is not good, the reference reception level of the reference channel is increased.

When the channel 1 frame is received, it is determined whether the state of the received channel 1 frame is good.

As a result of the determination, if the frame is good, the reference reception level of channel 1 is decreased, and if the frame is not good, the reference reception level of channel 1 is increased.

On the other hand, if the channel N frame is received, it is determined whether the state of the received channel N frame is good.

As a result of the determination, if the frame is good, the reference reception level of channel N is decreased, and if the frame is not good, the reference reception level of channel N is increased.

As described above, the present invention is applied to the forward power control algorithm of the mobile communication system, so that even if there is only one power control sub-channel, when using multiple channels, the frame error rate of the channel is kept constant to reduce call quality and call. There is an effect that can reduce the possibility of cutting.

Claims (4)

Determining a reference channel to transmit information to the forward power control subchannel when closed loop power control is initiated; Measuring a reference channel reception level if the channel to be transmitted is a reference channel; Determining whether the reference reception level is greater than the reference channel reception level; As a result of the determination, when the received energy of the reference channel is lower than the reference received energy, '1' is transmitted to the forward power control subchannel. If the received energy of the reference channel is higher than the reference received energy, '0' is transmitted to the forward power control subchannel. Making a step; And measuring a channel 1 to N reception level if the channel to be transmitted is channels 1 to N. The frame error rate control method of a reverse channel in a mobile communication system. The method of claim 1, And the reference channel reception level is a reference channel reception level-a reference reception level of a reference channel. The method of claim 1, And the channel 1 to N reception level is a reference reception level of channel 1 to N reception level-channels 1 to N. The frame error rate control method of a reverse channel in a mobile communication system. Receiving a reference channel frame when outer loop power control is started; Determining whether the state of the received reference channel frame is good; Reducing the reference reception level of the reference channel if the frame is good, and increasing the reference reception level of the reference channel if the frame is not good; Determining whether the state of the received channel 1-N frame is good when the channel 1-N frame is received; And if the frame is good, reducing the reference reception level of channels 1 to N, and if the frame is not good, increasing the reference reception level of channels 1 to N. Method of controlling frame error rate of reverse channel.